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Resources by Year

Please view the presentations and videos form the lectures given at the Heliophysics Summer Schools, sorted by year.

Speaker Presentations
Fran Bagenal Intro to Magnetosphere
Lauren Blum Magneto-Ionosphere System
Tom Bogdan The Physics of Heliophysics
David Brain Comparative Planetary Environments
David Brain Planetary Habitability I
David Brain Planetary Habitability II (Atmospheric Escape)
Bob Ergun Heating and Acceleration Energetic Particles
Bob Ergun Particle Orbits, Transport
Raluca Ilie MagnetoHydroDynamics: an introduction
Ben Lynch Magnetic Instability/Activity
Ben Lynch Magnetic Structures
Robert Marshall Ionosphere Long Term variability
Robert Marshall Structure of the Ionosphere
Matthias Rempel Planetary Dynamos
Matthias Rempel Stellar Dynamos
Anna Tenerani Turbulence
Marco Velli Neutral Fluids and Plasmas
Marco Velli Stellar Winds and Astrospheres
Speaker Presentations
Nick Arge Model Inputs for Solar Models

Video from presentation: The Solar Magnetic Field

Stuart Bale Calculating Quantities: Plasma and Field Parameters
Christina Cohen High Energy Particle Telescopes
Christina Cohen Role of Instrument Release NotesCalibration and Measurement Algorithms Document (CMAD) Magnetospheric Multiscale (MMS) Project Data Management Plan
Christina Cohen SEP’s and Other Energetic Particles
Anthea Jane Coster ISR & Distributed GPS
Anthea Jane Coster Review of Ionosphere Physics
Stefan Eriksson Calculation Using Spacecraft Constellations: MMS
Lika Guhathakurta Review the Heliophysics Observatory
Mike Hartinger Global Structure of the Magnetosphere
Mike Hartinger Plasma Instruments and Magnetometers
Allison Jaynes Calculating Quantities: Energetic Particles
Enrico Landi Viewing the Sun Across the EM Spectrum
Mark Moldwin Calculation Using Spacecraft Constellations: Structure and Scale Size of the Solar Wind
Barbara Thompson The Solar Corona and Solar Wind
Dan Welling Model Inputs for Magnetosphere Models
Speaker Presentations
Student Brainstorming Student Brainstorming
Subhamoy Chatterjee Where does AI/ML stand in the domain of Heliophysics
Mark Cheung Solar Data
Mark Cheung Solar Data Part 2
Christina Cohen Core Lecture Activities: SEP's and Space Weather Impacts
Christine Gabrielse Magnetosphere Data
Christine Gabrielse Magnetosphere Data Part 2
Joe Giacalone Solar Wind Modeling
Joe Giacalone Solar Wind Modeling Part 2
Nicholas Gross Core Lecture Activities: Solar Interior
Nicholas Gross Lab 1: Expert Group Summary
Nicholas Gross Lab 1: Jigsaw Groups
Nicholas Gross Lab 1: Jigsaw Groups Part 2
Nicholas Gross Lab 2: Global Structure of the Solar Wind Part 1
Nicholas Gross Lab 2: Global Structure of the Solar Wind Part 2
Nicholas Gross Lab 3: Comparative Magnetospheres
Nicholas Gross Lab 3: Review of Magnetosphere Lab Results
Nicholas Gross Lab 4: Ionosphere Lab Part 1
Nicholas Gross Lab 4: Ionosphere Lab Part 2
Sue Lepri Solar Wind Data
Sue Lepri Solar Wind Data Part 2
Slava Merkin Magnetosphere Modeling
Slava Merkin Magnetosphere Modeling Part 2
Mark Moldwin A Tribute to Parker and Siscoe
Mark Moldwin Core Lecture Activities: Why do the planets have a magnetosphere and ionsphere
Antonia Savcheva Solar Modeling
Antonia Savcheva Solar Modeling Part 2
Karel Schrijver Discussion Activities
Matt Zetterren Ionosphere Modeling
Matt Zetterren Ionosphere Modeling Part 2
Shasha Zou Ionosphere Data
Speaker Presentations
Amitava Bhattacharjee Dynamo Theory Basics

Start video at 1:28:28

David Brain Planetary Atmospheres and Habitability
Ben Chandran Solar Wind Acceleration and Coronal Heating
Nicholas Featherstone Large-Scale Dynamics of the Solar Interior
Joe Giacalone Aspects of the Physics of High-Energy Charged Particles in the Heliopshere

Start video at 49:40

Madhulika Guhathakurta Heliosphere Division Snapshot
Dana Longcope Overview of Cycles and Long Term Variability in the Heliopshere
Dana Longcope Why Do the Earth and Planets Have an Ionosphere and Magnetosphere
Dana Longcope Why Do the Earth and Sun Have Magnetic Fields?
Scott McIntosh Solar Cycle Prediction

Start video at 1:29:00

Merav Opher Structure of the Heliosphere Part 1
Merav Opher Structure of the Heliosphere Part 2

Start Video at 51:00

Elena Provornikova Interstellar Probe

Start Video at 47:20

Sabine Stanley Planetary Fields and Dynamos

Start Video at 1:50:40

Shasha Zou Ionosphere and Thermosphere Basics
Speaker Presentations
Amitava Bhattacharjee Earth and Planetary Magnetospheres

Start video at 1:16:28

Amitava Bhattacharjee Particle Energization

Start Video at 0:04:00

Tim Fuller-Rowell Earth's Ionosphere and Atmosphere
Tim Fuller-Rowell Space Weather in the Upper Atmosphere
Janet Green Space Weather: How Does it Impact Satellites and Power Grids?

Start video at 2:03:13

Madhulika Guhathakurta Next Generation Radiation Characterization from Aviation Altitude to Deep Space

Video starts at 1:12:35

Delores Knipp Geomagnetic Storms: Classical Views & Developing Views

Video: Bursty Bulk Flow

Delores Knipp Geomagnetic Storms: Great Storms Over the Centuries

Start video at 0:36:00

Dana Longcope Heliophysics Core Lecture Review: Why do the Earth & Planets have Ionospheres? Magnetospheres?
Dana Longcope Heliophysics Core Lecture Review: Why does the Sun have a Corona and Wind?
Dana Longcope Solar Flares
Bill Murtagh Space Weather and its Impacts on Society
Jiong Qiu CME's And Transients
Kent Tobiska Characterizing the Global Aviation Radiation Environment
Speaker Presentations
Fran Bagenal Planetary Magnetospheres
  • Textbook I, Chapter 10
  • Textbook I, Chapter 13
Amitava Bhattacharjee Core Lecture 2: Kinetic Theory
Amitava Bhattacharjee Magnetic Reconnection
  • Textbook I, Chapter 5
  • Textbook II, Chapter 10
Ben Chandran Solar Wind: Particle Distribution Functions
  • Textbook II, Chapter 8
  • Textbook II, Chapter 9
  • Textbook IV, Chapter 12
Ben Chandran Solar Wind: Structure and Turbulence
  • Textbook I, Chapter 7
  • Textbook I, Chapter 9
  • Textbook III, Chapter 9
Robert Ergun Magnetopshere: Reconnection & Substorms Part 2
Robert Ergun Magnetosphere: Reconnection & Substorms, Part 1
  • Textbook II, Chapter 2
  • Textbook II, Chapter 10
Lika Guhathakurta, Ryan McGranaghan, Andres Munoz-Jaramillo Big DataArtificial Intelligence for Space Exploration and All Humankind Applications of Deep Learning in Heliophysics
Thomas Immel Ionosphere Part 1
  • Textbook I, Chapter 12
  • Textbook III, Chapter 13
  • Textbook IV, Chapter 8
Thomas Immel Ionosphere Part 2
Dana Longcope Core 3:Ionosphere-Thermosphere-Mesosphere Focus
Dana Longcope Core Lecture 1: Why does the Sun have a Corona and Wind?
Dana Longcope Orbital Mechanics
Jon Sample In Situ Instruments and Measurements
  • Textbook II, Chapter 3
Speaker Presentations
Stuart Bale Stellar and Solar Winds
  • Textbook I, Chapter 9
  • Textbook III, Chapter 8
Amitava Bhattacharjee Dynamo Theory: Basics
  • Textbook I, Chapter 3
  • Textbook III, Chapter 6
Amitava Bhattacharjee Explosive Events: CMEs, Flares and Substorms
  • Textbook II, Chapter 5
  • Textbook II, Chapter 6
Ofer Cohen Coronae, Heliospheres and Astrospheres
  • Textbook I, Chapter 2
  • Textbook IV, Chapter 1
  • Textbook IV, Chapter 3
Ofer Cohen Evolution on Short and Long Time Scales
  • Textbook IV, Chapter 2
  • Textbook IV, Chapter 4
Chuanfei Dong Living with Stars and Societal Relevance
  • Textbook III, Chapter 4
  • Textbook III, Chapter 11
Nicholas Featherstone Planetary Dynamos
  • Textbook III, Chapter 7
  • Textbook IV, Chapter 6
Nicholas Featherstone Stellar Dynamos
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6
Madhulika Guhathakurta Artificial Intelligence for Space Exploration and All Humankind
Dana Longcope Why do Sun and Planets have Magnetic Fields?
  • Textbook I, Chapter 3
  • Textbook III, Chapter 2
  • Textbook III, Chapter 6
  • Textbook III, Chapter 7
  • Textbook IV, Chapter 6
Dana Longcope Why do the Earth & Planets have Ionospheres? Magnetospheres?
  • Textbook I, Chapter 10
  • Textbook I, Chapter 11
  • Textbook I, Chapter 12
  • Textbook II, Chapter 11
  • Textbook III, Chapter 13
  • Textbook IV, Chapter 8
Dana Longcope Why does the Sun Have a Corona and a Wind?
  • Textbook I, Chapter 9
  • Textbook III, Chapter 8
  • Textbook IV, Chapter 3
James Slavin Planetary MagnetospheresPlanetary Magnetospheres (part 2)
  • Textbook I, Chapter 10
  • Textbook I, Chapter 13
Jan Sojka Long-Term Evolution of the Geospace Climate
  • Textbook III, Chapter 2
  • Textbook III, Chapter 14
Jan Sojka Planetary Ionospheres
  • Textbook III, Chapter 13
  • Textbook IV, Chapter 8
Speaker Presentations
Fran Bagenal Planetary Magnetospheres (pdf)
  • Textbook I, Chapter 10
  • Textbook I, Chapter 13
Amitava Bhattacharjee Dynamo Theory: Basics
  • Textbook I, Chapter 3
  • Textbook III, Chapter 6
Amitava Bhattacharjee Turbulence in Fluids and Space Plasmas
  • Textbook I, Chapter 7
Ofer Cohen Comparative Heliophysics
  • Textbook I, Chapter 2
  • Textbook IV, Chapter 1
Nicholas Gross Lab 1: Tracking a Solar Storm
Nicholas Gross Lab 2: Solar Dynamos
Nicholas Gross Lab 3: Solar Wind
Nicholas Gross Lab 4: Comparative Magnetospheres
Nicholas Gross Lab 5: Variations in Solar IrradianceLab 6: Exploring Ionosphere Structures
Madhulika Guhathakurta Eclipse & Comparative Heliophysics
  • Textbook I, Chapter 2
  • Textbook IV, Chapter 1
Greg Kopp Solar Spectral Irradiance: Measurements and Models
  • Textbook III, Chapter 10
Marty Lee Acceleration and Heating in the Solar Wind (pdf)Cosmic Rays
  • Textbook I, Chapter 9
Marty Lee Energetic Particles in the Heliosphere (pdf)
  • Textbook II, Chapter 9
Dana Longcope Why do the Sun and Planets have Magnetic Fields?
  • Textbook I, Chapter 3
  • Textbook III, Chapter 2
  • Textbook III, Chapter 6
  • Textbook III, Chapter 7
  • Textbook IV, Chapter 6
Dana Longcope Why Does the Earth Have a Magnetosphere, Radiation Belts & an Ionosphere?
  • Textbook I, Chapter 10
  • Textbook I, Chapter 11
  • Textbook I, Chapter 12
  • Textbook II, Chapter 11
  • Textbook III, Chapter 13
  • Textbook IV, Chapter 8
Dana Longcope Why is there a Corona and a Wind?
  • Textbook I, Chapter 9
  • Textbook III, Chapter 8
  • Textbook IV, Chapter 3
Mark Miesch Planetary Fields and Dynamos (pdf)
  • Textbook III, Chapter 7
  • Textbook IV, Chapter 6
Mark Miesch Solar Internal Flows and Dynamo Action
Homework
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6

This is an optional homework problem (e-mail Dr. Miesch for solution key).

Jan Sojka Long-term Evolution of the Geospace Climate (pdf)
  • Textbook III, Chapter 14

This lecture is actually Jan Sojka's Chapter 14 in Textbook III

Jan Sojka Terrestrial Ionospheres (pdf)Terrestrial Ionospheres (animated)
  • Textbook III, Chapter 13
Lisa Upton Solar Cycle Predictions (pdf)
  • Textbook III, Chapter 2
  • Textbook III, Chapter 6
Speaker Presentations
Vladimir Airapetian Comparative Heliophysics
  • Textbook I, Chapter 13
Amitava Bhattacharjee Large-Scale Instabilities
Amitava Bhattacharjee Magnetic Reconnection and Energy Conversions
  • Textbook II, Chapter 10
Doug Biesecker Effects of Space Weather & Mitigation Strategies
  • Textbook II, Chapter 2
  • Textbook II, Chapter 13
  • Textbook II, Chapter 14
Doug Biesecker Forecasting Space Weather Events
Tim Fuller-Rowell
  • Textbook II, Chapter 10
  • Textbook II, Chapter 11
Nicholas Gross Lab 1: SWx Events
Nicholas Gross Lab 2: Solar Dynamo
Nicholas Gross Lab 3: Solar Wind
Nicholas Gross Lab 5: Comparative Magnetospheres
Madhulika Guhathakurta Comparative Heliophysics
  • Textbook I, Chapter 13
Dana Longcope Why do Sun and Planets Have Magnetic Fields?
  • Textbook I, Chapter 3
  • Textbook III, Chapter 2
  • Textbook III, Chapter 6
  • Textbook III, Chapter 7
  • Textbook IV, Chapter 6
Dana Longcope Solar Flares
  • Textbook II, Chapter 6
Dana Longcope Why does the Earth have a Magnetosphere, Radiation Belts & an Ionosphere?
  • Textbook I, Chapter 10
  • Textbook I, Chapter 11
  • Textbook I, Chapter 12
  • Textbook II, Chapter 11
  • Textbook III, Chapter 13
  • Textbook IV, Chapter 8
Dana Longcope Why is There a Corona & a Wind?
  • Textbook I, Chapter 9
  • Textbook III, Chapter 8
  • Textbook IV, Chapter 3
Merav Opher
  • Textbook II, Chapter 7
Merav Opher
  • Textbook II, Chapter 8
  • Textbook II, Chapter 9
  • Textbook II, Chapter 11
Neal Savani CMEs
  • Textbook II, Chapter 6
  • Textbook IV, Chapter 4
Lisa Upton Introduction to the Solar Dynamo
Speaker Presentations
Nick Achilleos Introducing the Seasons of the Sun-Planetary System Connections
  • Textbook I, Chapter 2
  • Textbook I, Chapter 13
  • Textbook II, Chapter 2
  • Textbook III, Chapter 11
Nick Achilleos Planetary Magnetospheres
Homework
Solution
Tom Ayres Observing/Measuring Solar/Stellar Activity and Solar/Stellar Wind
  • Textbook II, Chapter 4
Fran Bagenal Planetary Magnetic Fields - PDFPlanetary Magnetic Fields - PPT
Daniel Baker Couplings with Magnetospheres: Missions Throughout the Heliosphere
  • Textbook II, Chapter 4
John Foster Geospace Variability Through the Solar Cycle 1 Geospace Variability Through the Solar Cycle 2
Sarah Gibson
  • Textbook I, Chapter 2
  • Textbook II, Chapter 2
Gary Glatzmaier Planetary Dynamo(s) and Their Seasons 1Planetary Dynamo(s) and Their Seasons 2
  • Textbook I, Chapter 3
Nicholas Gross

Lab 1: Sun to Earth Storms
Lab 2: Solar Dynamo/Stellar Dynamos
Lab 3: Sources of Solar Spectral Irradiance
Lab 4: Solar Wind Properties Through the Solar Cycle
Lab 5: Magneospheric Dipole

Mona Kessel
Bill Lotko
Janet Luhmann Introducing the Seasons of the Sun-Planetary System Connections
  • Textbook I, Chapter 2
  • Textbook II, Chapter 2
Janet Luhmann Solar-Wind Through the Sunspot Cycle, (I)CME Modulations by Eruptive & Explosive Phenomena, and Effects on GCRs 1Solar-Wind Through the Sunspot Cycle, (I)CME Modulations by Eruptive & Explosive Phenomena, and Effects on GCRs 2
Mark Moldwin Universal Plasma Processes in Heliophysics 1Universal Plasma Processes in Heliophysics 2
  • Textbook II, Chapter 1
Andres Munoz Solar Cycle & Dynamo (including extended minima and maxima), and the Large-Scale Field 1Solar Cycle & Dynamo (including extended minima and maxima), and the Large-Scale Field 2
Karel Schrijver Proposal Elements
Jan Sojka
Stan Solomon Orbital Seasons, Radiative Transport, Ionization, and Chemistry in Planetary Outer Atmospheres
  • Textbook II, Chapter 12
Harry Warren Solar Spectral Radiance and Their Origins Through Cycles of Solar Magnetism 1Solar Spectral Radiance and Their Origins Through Cycles of Solar Magnetism 2
Speaker Presentations
Fran Bagenal Introduction to Magnetospheric Physics 1Introduction to Magnetospheric Physics 2
Homework
Solution
  • Textbook I, Chapter 10
  • Textbook I, Chapter 13
  • Textbook II, Chapter 10
David Brain Climates of Terrestrial Planets 1Climates of Terrestrial Planets 2
  • Textbook III, Chapter 4
  • Textbook IV, Chapter 8
Paul Charbonneau Stellar Dynamos
  • Textbook I, Chapter 3
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6
Ofer Cohen Effects of Stellar Eruptions Throughout Astrospheres
Homework
  • Textbook II, Chapter 7
  • Textbook IV, Chapter 4
Debra Fischer Characteristics of Planetary Systems 1Characteristics of Planetary Systems 2
  • Textbook III, Chapter 3
  • Textbook IV, Chapter 5
Tamas Gombosi Introducing Heliophysics from the Perspective of Universal Processes
  • Textbook II, Chapter 1

Homework is embedded in Video 2

Nicholas Gross Lab 1: Tracking a Solar Storm: - Expert-Jigsaw Analysis
Nicholas Gross Lab 2: Solar Wind Variation Throughout the Heliosphere
Nicholas Gross Lab 3a: Magnetosphere 1 - A Different Magnetosphere
Nicholas Gross Lab 3b: Magnetosphehere 2 - A Magnetosphere in Different Places
Nicholas Gross Lab 4: Simple Comparative Ionospheres Using the Chapman Layer
Madhulika Guhathakurta General Introduction to Heliophysics: Science
  • Textbook I, Chapter 1
  • Textbook I, Chapter 2
Rod Heelis Introduction to ITM Processes
Homework
  • Textbook I, Chapter 12
  • Textbook II, Chapter 12
  • Textbook III, Chapter 13
  • Textbook III, Chapter 14
Margaret Kivelson Interaction of Moons, Asteroids, & Comets with their Surroundings
Homework
  • Textbook IV, Chapter 10
Luke Moore Atmosphere-Ionosphere-Magnetosphere Coupling at the Giant Planet
Homework
  • Textbook IV, Chapter 9
Bill Murtagh General introduction to Heliophysics: Society
  • Textbook II, Chapter 2
  • Textbook II, Chapter 13
  • Textbook II, Chapter 14
Rachel Osten Solar Explosive Activity Throughout the Evolution of the Solar System - Introduction ProcessSolar Explosive Activity Throughout the Evolution of the Solar System - Trends With Time
Homework
Solution
  • Textbook II, Chapter 5
  • Textbook II, Chapter 6
  • Textbook IV, Chapter 2
Karel Schrijver Observations of Stellar Dynamos
  • Textbook I, Chapter 3
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6
David Siskind Aeronomy of Terrestrial Planet Atmospheres
  • Textbook III, Chapter 13
  • Textbook III, Chapter 14
  • Textbook IV, Chapter 7
Sabine Stanley Planetary Dynamos: Updates & New Frontiers
Homework
Solution
  • Textbook I, Chapter 13
  • Textbook III, Chapter 7
Brian Wood/Jeffrey Linsky Stellar Winds and Their Interaction with the Variable ISM
Homework
  • Textbook III, Chapter 8
  • Textbook III, Chapter 9
  • Textbook IV, Chapter 3
Speaker Presentations
Fran Bagenal Comparative Magnetospheres: Planets and Their Satellites
Homework
  • Textbook I, Chapter 10
  • Textbook I, Chapter 13
Daniel Baker Energetic Particles and Their Impacts Around the Heliosphere
  • Textbook II, Chapter 2
  • Textbook II, Chapter 13
  • Textbook II, Chapter 14
Mario Bisi Planetary and Solar Radio Occultation/ScintillationsPlanetary and Solar Radio Occultation/Scintillations: Additional Material Brief Quasar History Twinkle-Twinkle
Stephen Bougher ITM Physics of Terrestrial Planets (Including GMD Couplings from Above and Atmospheric from Below)
Homework
  • Textbook I, Chapter 12
  • Textbook II, Chapter 12
  • Textbook III, Chapter 13
  • Textbook III, Chapter 14
David Burgess Shocks and Energetic Particles: Corona, Wind, Planets, Solar System
Homework
Solution
  • Textbook II, Chapter 7
  • Textbook II, Chapter 8
Terry Forbes Magnetic Energy Conversion Processes in the Sun and Planets
Homework
Solution
  • Textbook II, Chapter 5
  • Textbook II, Chapter 6
  • Textbook II, Chapter 10
Marina Galand Planetary Outer Atmospheres: Interfaces from Atmospheres to Magnetospheres
Homework
  • Textbook I, Chapter 11
Joe Giacalone Galactic Cosmic Rays: Sources, Propagation, Entry Throughout Solar System Galactic Cosmic Rays: Sources, Propagation, Entry Throughout Solar System
Homework
  • Textbook II, Chapter 11
  • Textbook III, Chapter 9
Nicholas Gross Lab 1: Tracking a Storm
Nicholas Gross Lab 2: Solar Wind Variation Throughout the Heliosphere
Nicholas Gross Lab 3: Magnetosphere 1 - A Different Magnetosphere
Nicholas Gross Lab 4: Magnetosphere 2 - A Magnetospshere in Different Places
Nicholas Gross Lab 5: Ionospheres
Mihaly Horanyi Dusty Plasmas in the Solar System
Homework
Norbert Jakowski Radio Wave Propagation for Communication and Probing; Ionospheric Scintillation
Norbert Krupp Comparative Energetic Particle Environments (SEP/GCR/Local)
Mark Moldwin Introduction to Heliophysics System Physics: Processes and Environments, Similarities and Differences
Homework
  • Textbook I, Chapter 1
  • Textbook I, Chapter 2
  • Textbook II, Chapter 1
  • Textbook III, Chapter 1
Karel Schrijver Solar Spectral Irradiation & Wind Over Time Scales up to a Decade
Homework
Solution
  • Textbook I, Chapter 8
  • Textbook I, Chapter 9
  • Textbook III, Chapter 2
  • Textbook III, Chapter 8
  • Textbook III, Chapter 10
Sabine Stanley Dynamos in Planets and Stars
Homework
  • Textbook I, Chapter 3
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6
  • Textbook III, Chapter 7
Kent Tobiska Impacts of Space Weather
Speaker Presentations
Daniel Baker An Overview of Heliophysical Exploration
  • Textbook I, Chapter 2
Amitava Bhattacharjee Basic Plasma Concepts and Models
Amitava Bhattacharjee Magnetic Reconnection
Homework
Solution
  • Textbook I, Chapter 4
  • Textbook I, Chapter 5
  • Textbook II, Chapter 5
  • Textbook II, Chapter 6
David Boteler The Impact of Space Weather on the Electric Power Grid
  • Textbook II, Chapter 2
Ben Chandran Introduction to Turbulence and Heating in the Solar Wind
Homework
  • Textbook I, Chapter 7
Eric Donovan The Substorm: An Introduction to the Topic in the THEMIS EraThe Substorm: An Introduction to the Topic in the THEMIS Era Primer
Homework
  • Textbook II, Chapter 10
  • Textbook II, Chapter 12
John Dorelli Earth’s Magnetosphere
Homework
  • Textbook I, Chapter 10
  • Textbook I, Chapter 11
  • Textbook II, Chapter 10
Kevin Forbes Establishing the Economic Impacts of Space Weather: The Case of Electricity
  • Textbook II, Chapter 2
Nicholas Gross Lab 1: Investigating the Magnetosphere
Nicholas Gross Lab 2: The Dynamic Magnetosphere
Nicholas Gross Lab 3: Solar Activity
Nicholas Gross Lab 4: Exploring the Structure of the Solar Wind
Philip Judge Physics of the Solar Chromosphere
Homework
  • Textbook I, Chapter 12
Justin Kasper The Solar Wind
Homework
Solution
  • Textbook III, Chapter 8
Dana Longcope Shocks in Heliophysics
Homework
  • Textbook II, Chapter 7
  • Textbook II, Chapter 8
Sten Odenwald Space Weather: Impacts, Mitigation & ForecastingSpace Weather and Its Societal Impacts
  • Textbook II, Chapter 2
Karel Schrijver The Solar Atmosphere
  • Textbook II, Chapter 5
  • Textbook II, Chapter 6
  • Textbook III, Chapter 2
Yuri Shprits Radiation Belts
Homework
  • Textbook II, Chapter 11
Jan Sojka The Ionosphere-Thermosphere
  • Textbook I, Chapter 12
  • Textbook III, Chapter 13
Speaker Presentations
Fran Bagenal Dynamos and Magnetospheres of the Planets
  • Textbook I, Chapter 13
  • Textbook III, Chapter 7
Fran Bagenal Formation & Habitability of Planets
Homework
  • Textbook III, Chapter 4
Amitava Bhattacharjee Basic Plasma Concepts and Models
  • Textbook II, Chapter 11
Jack Gosling Structure and Evolution of the Three Dimensional Solar Wind
Homework
Solution
  • Textbook I, Chapter 9
Randy Jokipii Cosmic Rays
Homework
  • Textbook II, Chapter 9
Greg Kopp Solar Irradiances
  • Textbook III, Chapter 10
Greg Kopp Solar Variability and Earth’s Climate
  • Textbook III, Chapter 11
  • Textbook III, Chapter 12
Dana Longcope Introduction to Heliophysics
Mark Miesch Lab: Solar Convection and Dynamo
Mark Miesch Solar Convection and the Solar Dynamo
Homework
Solution
  • Textbook III, Chapter 5
  • Textbook III, Chapter 6
Matthias Rempel Creation and Destruction of Magnetic Fields
Homework
Solution
  • Textbook I, Chapter 3
Jan Sojka The Earth's IonosphereLong Term Evolution of Geospace Climate
Homework
  • Textbook I, Chapter 12
  • Textbook III, Chapter 13
Frank Toffoletto Lab: Magnetosphere
Frank Toffoletto Solar Wind/Magnetosphere Coupling
Homework
  • Textbook I, Chapter 11
  • Textbook II, Chapter 10
Speaker Presentations
Daniel Baker Space Weather Effects - PPSpace Weather Effects - PDF
  • Textbook II, Chapter 14
Timothy Bastian Radiative Signatures of Energetic Particles
Homework
  • Textbook II, Chapter 4
Amitava Bhattacharjee Introductory Lecture I: Basic Plasma Concepts/Plasma Models
Community Coordinated Modeling Center
Community Coordinated Modeling Center
Community Coordinated Modeling Center
Terry Forbes Models of Flares and CMEs
Homework
  • Textbook I, Chapter 5
  • Textbook II, Chapter 6
Tim Fuller-Rowell Ionosphere thermosphere response
Homework
Solution
  • Textbook II, Chapter 12
J. Grebowsky IT Science Overlay
David Klumpar Detection of Energetic Particles
Homework
  • Textbook II, Chapter 3
Janet Kozyra The Complete Disturbance: Energy Transport
  • Textbook I, Chapter 2
Marty Lee Particle Acceleration in Shocks
Homework
Solution
  • Textbook I, Chapter 8
  • Textbook II, Chapter 8
Michael Liemohn Energization of Trapped Particles
Homework
  • Textbook II, Chapter 11
Dana Longcope Magnetic Reconnection
  • Textbook I, Chapter 1
  • Textbook I, Chapter 4
  • Textbook I, Chapter 5
NASA
Merav Opher Shocks in Heliophysics
Homework
Solution
  • Textbook I, Chapter 7
  • Textbook II, Chapter 7
Jan Sojka Introductory Lecture II: An Overview of Space Storms
Harlan Spence Particle Effects on Humans and Biological Tissues - PPParticle Effects on Humans and Biological Tissues - PDF
  • Textbook II, Chapter 13
Vytenis Vasyliunas Planetary magnetospheres
Homework
Solution
  • Textbook I, Chapter 10
  • Textbook II, Chapter 10
Speaker Presentations
Caspar M. Ammann Climate Models of Earth and Planets
Juerg Beer Evidence of external influences on planetary climates
Donald Brownlee Planetary HabitabilityThe Drake Equation
Paul Charbonneau Solar and Stellar Dynamo Models
Ulrich Christensen Planetary Magnetic Fields and Dynamos
Thomas Crowley A Vintage 2009 Assessment of the Sun-Climate Connection in Paleoclimate Records
Lee Hartmann Formation of Stars and Their Planets
Randy Jokipii The Evolving Heliosphere and its Particle Environment
Homework
Solution
  • Textbook II, Chapter 9
  • Textbook III, Chapter 3
  • Textbook III, Chapter 8
  • Textbook III, Chapter 9
Judith Lean Solar Total and Spectral Irradiance Measurements and Models: A Users Guide
Mark Miesch Solar Internal Flows and Dynamo Action
  • Textbook III, Chapter 5
Karel Schrijver Long-Term Evolution of Magnetic Activity of Sun-Like StarsImpact Generated Shockwaves are Proposed for the Origin of Sunspots to Explain the Detected Planetary Correlations with Solar Activity Extreme-Ultraviolet Flare Activity in Late-Type Stars Twenty-Seven Day Recurrences in Terrestrial Magnetic and Solar Activity, 1923-1933 On a Transition from Solar-Like Coronae to Rotation-Dominated Jovian-Like Magnetospheres in Ultracool Main-Sequence Stars
George Siscoe The Palemagnetoshere
Jan Sojka Long-Term Evolution of the Geospace Climate
Stan Solomon Ionospheres of the Terrestrial Planets
Speaker Presentations
Krauss-Varban Dietmar ECP II: Shock Acceleration
  • Textbook II, Chapter 8
Krauss-Varban Dietmar Lab: Hybrid Simulations: Numerical Details and Current Applications
Terry Forbes ECP (Energy Conversion Processes) I: Buildup to Instability Then Explosive Conversion
  • Textbook II, Chapter 6
Tim Fuller-Rowell EM Flare Radiation and Atmospheric Response: ITM and Chromosphere
  • Textbook II, Chapter 12
Goerge Gloeckler Energetic Particles and their Detection in Situ (Particle Detectors) 1Energetic Particles and their Detection in Situ (Particle Detectors) 2 Energetic Particles and their Detection in Situ (Particle Detectors) 3
  • Textbook II, Chapter 3
Janet Green ECP II: Energization of Trapped Particles in Planetary Radiation Belts
  • Textbook II, Chapter 11
Hugh Hudson Observations of Solar and Stellar Eruptions, Flares, and Jets
  • Textbook II, Chapter 5
Merav Opher The Varieties of Shocks: Coronal, CME, CIR, Heliospheric, and Planetary
George Siscoe Lab: The Chapman-Feraro Problem
Alan Tribble Particle Interaction with Technology
  • Textbook II, Chapter 14
Vytenis Vasyliunas Application of ECP I: Magnetic (Sub-)Storms, and Planetary Counterparts
  • Textbook II, Chapter 10
Richard Walterscheid Waves in Planetary Atmospheres
  • Textbook III, Chapter 15
Speaker Presentations
Caspar M. Ammann Solar Variability and Earth’s Climate
Fran Bagenal A Casebook of Universal Plasma Processes 1A Casebook of Universal Plasma Processes 2
Tom Bogdan A Gentle Introduction to Heliophysics
  • Textbook I, Chapter 2
Mihir Desai Energetic Particles from Solar Explosions
Terry Forbes Magnetic ReconnectionCME's and Flares
  • Textbook I, Chapter 5
Michael Gehmeyr Introduction to CISM_DX and Overview of OpenDX
Viggo Hansteen The Solar AtmosphereThermally Driven Winds
  • Textbook I, Chapter 8
  • Textbook I, Chapter 9
Dana Longcope Magnetic Field Topology
  • Textbook I, Chapter 4
Mark Moldwin Magnetic Flux Ropes in Space Plasmas
Homework
Solution
  • Textbook I, Chapter 6
Matthias Rempel Creation and Destruction of Magnetic Fields 1Creation and Destruction of Magnetic Fields 2
  • Textbook I, Chapter 3
Karel Schrijver Tutorial: The Magnetic Connection Between the Sun and the Heliosphere
George Siscoe Lab: A Tour of the Magnetosphere with CCMC Models
Chuck Smith Turbulence in Space Plasmas
Frank Toffoletto Solar Wind Magnetosphere CouplingGeomagnetic Storms and Substorms








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